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The FILE protocol allows one Chaosnet host (the user) to make use of a file system on another host (the server). This document describes the protocol by which a user host and a server host communicate. It describes the requirements for both users and servers. It is assumed that the reader of this document is familiar with basic Chaosnet protocol, and undersands the meanings of "connections", "packets", "packet opcodes", "connect names", "opening" and "closing" connections, and so on.
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<td><div class="bibTitle"><a href="http://archive.org/details/xerox-parc_V-141_1">Interlisp-D and MIT CADR Lisp Machine demos for Vancouver IJCAI Conference - Tape #1</a></div>
Chaosnet is a local network, that is, a system for communication among a group of computers located within about 1000 meters of each other. Originally developed by the Artificial Intelligence Laboratory as the internal communications medium of the Lisp Machine system, it has since come to be used to link a variety of machines around MIT and elsewhere.
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<td><div class="bibTitle"><a href="http://portal.acm.org/citation.cfm?doid=800068.802138">Implementation of Interlisp on the VAX</a></div>
CoLab is a laboratory to experiment with new forms of copmputer-assisted collaboration. We argue that current tools for suporting meetings are antique. We propose experiments using modern computational and display technologies to build tools for better support of meetings and cooperative problem solving. Research objectives are outlined, specificially: the goals of the project and our approach to computer-based support for cooperative problem solving and the experimental basis for CoLab. We take a quick tour of the Colab meeting lab being constructed. We outline an example tool and discuss some possible future tools. Previous software systems for supporting group work and some past efforts at structuring group problem solving are described. We present dimensions of tool design and some experiments under consideration. The basic architecture and the software primitives for group use of computers are presented. We discuss the current status of the CoLab project and our immediate plans. We plan to use CoLab to explore the use of computer software and advanced display devices to enhance and extend group problem solving activity. It will also be used as a laboratory to investigate appropriate structures for computer-based meetings.
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<td><div class="bibTitle"><a href="https://doi.org/10.1145/800055.802047">Early LISP history (1956 - 1959)</a></div>
This manual is designed to introduce ZMACS, the LISP machine's text editor. ZMACS participates fully in the global LISP environment. It can be used for writing and editing English text and for preparing, testing, and debugging LISP programs.
Programs are judged not only by whether they faithfully carry out the intended processing but also by whether they are understandable and easily changed. Programming systems for artificial intelligence applications use specialized languages, environments, and knowledge-based tools to reduce the complexity of the programming task. Language styles based on procedures, objects, logic, rules, and constraints reflect different models for organizing programs and facilitate program evolution and understandability. To make programming easier, multiple styles can be integrated as sublanguages in a programming environment. Programming environments provide tools that analyze programs and create informative displays of their structure. Programs can be modified by direct interaction with these displays. These tools and languages are helping computer scientists to regain a sense of control over systems that have become increasingly complex.
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<td><div class="bibTitle"><a href="https://dl.acm.org/doi/10.1145/24054.24056">Rooms: The Use of Multiple Virtual Workspaces to Reduce Space Contention in a Window-Based Graphical User Interface</a></div>
The LFG Grammar-writer’s Workbench is a computational environment that assists in writing and debugging Lexical Functional Grammars (Kaplan & Bresnan, 1982). It provides linguists with a facility for writing syntactic rules, lexical entries, and simple morphological rules, and for testing and editing them.
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<td><div class="bibTitle"><a href="https://dl.acm.org/doi/10.5555/1074100.1074541">Linkers and loaders</a></div>
<td><div class="bibTitle"><a href="https://drive.google.com/file/d/11RSExnsUnt9UsWpwgxVGQrGGS2__w6Ny/view?usp=sharing">Characteristics of the Xerox 1100 Machines upon which the Gabriel Benchmarks Were Performed</a></div>
<td><div class="bibTitle"><a href="https://digitalassets.lib.berkeley.edu/techreports/ucb/text/CSD-84-215.pdf">CoLab, Tools for Computer Based Cooperation</a></div>
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<td><div class="bibTitle"><a href="https://drive.google.com/file/d/1-s-Hm73wFTYjMVoqdR7Bz0X5UJFfy3Zq/view?usp=sharing">Color/Advanced Graphics Features Brainstorming</a></div>
The LFG Grammar-writer’s Workbench is a computational environment that assists in writing and debugging Lexical Functional Grammars (Kaplan & Bresnan, 1982). It provides linguists with a facility for writing syntactic rules, lexical entries, and simple morphological rules, and for testing and editing them.
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